Apparatus for shaping plastic material



June 21, 1932. w. PRESTON APPARATUS FOR SHAPING PLASTIC MATERIAL 7 Sheets-Sheet 1 Filed March '7, 1929 INVAENTOR June 21, 1932. F. w. PRESTON APPARATUS FOR SHAPING PLASTIC MATERIAL Filed March 7, 1929 '7 Sheets-Sheet 2 f A) 7mm June 21, 1932. F. w. PRESTON V APPARATUS FOR SHAPING PLASTIC MATERIAL 7 Sheets-Shet 3 Filed March '7, 1929 WWWN June 21, 1932. F. w. PRESTON 4 1,364,319

APPfihATUS FOR SHAPING PLASTIC MATERIAL Filed March '7, 1929 7 Sheets-Sheet 4 June 21, 1932. F. w. PRESTON APPARATUS FOR SHAPING PLASTIC MATERIAL Filed March '7, 1929 7 Sheets-Sheet 5 INVENTOR I .ACS [ll IllllllllllllllllllllllllllllIllllllllllllIlllllllllllllllIlllll llllllllllllllllllfllli June 21, 1932. F. w. PRESTON 3 3 APPARATUS FOR SHAPING PLASTIC MATERIAL Filed March '7, 1929 7 Sheets-Sheet e June 21; 1932. F. w. PRESTON I APPARATUS FOR SHAPiNG PLASTIC MATERIAL Filed March 7, 1929 '7 Sheets-Sheet 7 I g, Wm

Patented June 21, 1932 UNIT an era TEES FRANK -W. PRESTON, F BUTLER, PENNSYLVANIA APPARATUS FOR SHAPING PLASTIC MATERTAL Application filed March 7,

My invention relates to a method and apparatus for the making of clay bodies such as glass melting. pots, tank blocks, etc;

One object of my invention is to provide a. means and a method for making pots of oval or elliptical form.

vAnother object of my invention is to provide an improved method and apparatus'tor forming fiat bodies for pot bottoms, tank :lOblocks, etc., by the use of plastic clay.

Another object of my invention is to provide an improved apparatus andmethod for forming bodies from plastic clay, in such manner that the clay is densely compact-ed and wherein the danger of entrapping air within the clay body is avoided.

Another object of my inventioni-s to provide an improved apparatus and method for forming glass melting pots and other bodies from clay having a plastic quality. The clay, which usually is an admixture of burnt ground clay or other grog mixed with a proportion of raw plastic binding clay, by my method is densely compacted. This compacting is eflected by the method of supplying the clayin small quantities to themachine and rolling it into approximately the desired form, distorting it by a second roller and then re-rollin so that by this continued u I I a working the entrained air is caused to be released. The clay body by this means hecomes dense with the interstices and voids containing air being reduced to a minimum. It is practically impossible by any method to remove all the entrained air-in'the clay, but by my method the clay is so consolidated by the continued working thatany interspaces inthe clayare broken up and become relatively small.

By the hand method of making pots the clay walls are built up by adding pieces of clay and kneading'and'pressing them on by the hands of the workman. It will readily he's-sen that the placing of a piece of clay on T the wall body will entrap a certain amount of air, in fact the resulting mixture is to a certain extent laminated, more especially at the juncture of the pot Wall to the bottom. This result is aggravated by the intermittent work off the pot maker who works on a number of 1929. Serial No. 344,985.

.pots at the same time and builds a'smallipart of a pot eachday, thus the clay "alreadyin place is drier than that added.

By my method, I use adrier-and less plastic clay than by the hand metho'd,as I ani'a ble to supply sufficient force to work the:drier clay. This is of great advantage a-sithe moisture content of a finished clay potis considerable, and the greater the'moisturethejgreater thecontraction on drying. :The'drying, un- -oo less the clay is thoroughly compacted, Will leave voids. There is anotheriadvantage in my ability of using a .clay of-relat-ivelyzdry consistency in that I can use-a mixture :of clays with a greater proportionof burnt clay and less plastic clay so that the pot "will'have a greater refractory. quality. Any .voidsin the clay body are most deleterious, as the flux materials of the glass which is melted inzthe clay pot will enter these voids, attack the'cl'ay in wall or bottom and eventually workthrough.

A further object of my invention is to "provicle a manner of forming,glassqneltingxpots and the like that are accurately shaped-sand smoothly finished.

Still another object of my inventionis'to simplify and improve generally-the art "of manufacturing clay bodies.

' Some of the forms which my invention may take are shown in the accompanying drawings wherein Figure 1 is a side-elevational view of apot forming machine; Fig. '2 ista view similar to Fig. 1, but showing certain of the clay-shaping elements in-i0ther positions;.Fig. 3 is a plan view ofthe machine of Fig. 2; Fig. 4: is a plan-view of aiportion 'of' the machine, on an enlarged scale;"Fi;g.5 is an QlQVEt-JiOIlEll View ofthe apparatus o't Fig. 4; Fig. 6 is an enlarged view, partially in relevation and partially iii-section of certain er the mold parts of the structures of Figsl and 2; Fig. 7 is a plan View of the-structure o'f 6; Fig. 8 is an elevational view thereoit taken at right angles to the showing Jot 6;Fig. 9 is a sectional plan view of a portion of the apparatus of Fig. 1, showing manner in which said portion of apparatus may be employed for building solid clay JOCllGS; Fig. 10 is an elevationalvieWthereof; Fig. 11 is a viewthereo't taken at right angles to Fig. Fig. 12 Sl1OWS the manner in which a block formed by the apparatus of Figs. 9 to 11 may be cut or divided to form tank blocks, etc., and Fig. 13 shows a modification of the structure of Fig. 1.

Referring to Figs. 1 and 3, the apparatus may suitably consist of a base 15 having a framework composed of uprights 16 and cross bars or guide rails 17 and 18. A pulley 19 is supported from the base 15 in suitable bearings and may be driven from a source of power (not shown). The pulley 19 is mounted on a shaft 20 which carries a pinion 21 that meshes with a gear wheel 22 that in turn drives a shaft 23. The shaft 23 has a clutch connection 24 with a-sprocket wheel 25 and carries a bevel pinion 26 which drives a gear wheel 27 that is mounted ona shaft which carries a gear wheel 28.

The gear wheel 28 meshes with a ring gear 29 on a mold table 30. The mold table 30 is supported upon a movable platform 31 through the medium of anti-friction balls 32,

' SO that the table may be freely rotated upon the platform 31 by means of the drivingcon- 'nection's above-described.

In the forming of pots that are elliptical, oval or of other form than circular in horizontal cross section, I provide a mold 34 of and its shrouds 29.1 is elliptical or of such a form as when rotated the revolving motion of the table 30 will conform to the contour of the pot mold 34.

The mold table 30 serves as a support for the side walls 34 and the bottom wall 35 of a mold, the bottom wall 35 being shown as mounted upon a truck 36 (Fig. 6) so that the clay body can be readily transferred from the mold table upon completion of the mold operation and withdrawal of the shaping devices. lf elliptical pots'are to be made, the mold willbe of corresponding form. The side Walls of the mold 34 are provided with offsets or recesses 34 as shown more clearly in Fig. 6, into which clay is forced in the building up of a pot, so that lugs are provided on the walls ofthe pot by means of which it may be conveniently handled. One

section'of the mold 34 is rigidly secured to the mold table 30 by means of screws 30 as shown more clearly in Figs. 7 and 8. The

other sections of the mold are pivotally connected to this fixed section as hereinafter explained.

The platform 31 is supported upon a roller 31a at approximately its mid portion and has I an arm 37 (Fig. 3) extending therefrom and pivotally connected at38 to the base of the machine, so that it will not become displaced. The ring gear 29 is'held' in mesh with the gear wheel 28 by means of a weight 40 and a cable 41, the cable 41 passing over a guide sheave 42 and being connected to the mold table.

By this arrangement, it will be seen that the mold table may be easily oscillated about the pivot 38 and the gear wheels 28 and 29 be held in driving engagement, notwithstanding the oval form of the gear 29. This is important in the forming of elliptical pots because the shaping devlces as hereinafter described must be properly located with respect to the interior surface of the pot being formed.

WVhen a mold has been placed upon a mold table and the parts are set in operation, clay is supplied to the interior of the mold through the spout 43 of a pug mill 44, the pug mill 44 being operated by means of a sprocket chain 45 that is driven from the shaft 23. The spout 43 is located so as to deposit material in that portion of the mold which is adjacent to the gear wheel 28, thus permitting the clay to be deposited in a non-oscillating mold zone and quite close to its vertical wall.

As the clay is extruded at a desired rate of travel from the spout 43 of the pug mill in sausage-like form, it is cut into short uniform lengths by knife members 44a that are mounted on the pug mill shaft 44?), and falls upon the mold bottom 35 and is compacted thereon by a consolidating roll 46 and bottom-forming rolls 47.

The bottom-forming rolls 47 are idle on a shaft 48 the shaft 48 being carried by a vertical shaft 49 that is journaled in a vertically-slidable block 50 which is counterpoisedas hereinafter explained, and is slidably supported in a guide block 50a that is supported for horizontal sliding movement on the rails 17 and 18.

This shaft is driven by means of helical gears 51 one of which is slidably keyed to the shaft 49 and the other of which is slidably keyed on a horizontal shaft 52, to permit vertical and radial shifting of the shaft 49 without breaking the driving connection of the helical gears 51.

The shaft 52 is driven from the shaft 23 through bevel gearing 54, a shaft 55, and suitable gearing indicated at 56. While the shaft 49 and the mold table 30 are both driven from the shaft 23, the gear connections are so arranged that the shaft 49 Will turn in a direction opposite to the direction of rotation of the mold table 30.

The block 50 is counter-weighted by means of a weight 58 and a cable 59which passes over guide sheaves and is connected to an arm 60 that is secured to the block, so that the bottom-forming rolls 47 will not bear with too great force upon the clay in the bottom of the mold.

The consolidating roll 46 is'idly rotatable 3 shown, or plane.

upon a bracket 62 which is slidably'supportedi upon'an upright63. This bracket is counter-' weightedby a cable 64 and a weight 65.

As clay is fed into the machine it is first caught by the roller 46 and consolidation.

thereof to form the bottom of the'pottheres upon begins, the roller 46 serving to. squeeze the clay and distribute it along'the bottom ofthe mold adjacent to the side wall thereof; As shownmore clearly in Fig. 4, the axis of the roller 46 is angular to a radial line66, the inner end of the axialline of the roller being disposed forwardly of the line 66.

The angular disposition of the roller 46 serves to prevent a considerable portion of clay from passing between the foremost-edge of the roller and the pot'wallf and beingcompact-ed against the wall of the mold. In

other words, the foremost edge of the roller is closer to the mold wall-than isthe rearmost edge thereof, so that this conical roller'will not cut off a fin of clay or wipe it against the wall of the mold to suchan extent. that any oilor other lubricating agent appliedto the wall will be rubbed off.

1? would be cut off by the outer edge of the roll. 7

By making the roller 46 conical and having its bottommost surface parallel to the mold bot-tom, the outer lowermost edge, that is the lowermost part of the enlarged end of the roller can be brought more closely to the mold wall than if the roller were cylindrical and with its" axis in parallelism with the plane of the mold bottom. The conical arrangement, therefore, permits of compacting of the clay in closer proximity to the mold well than if the roller 46 were cylindrical The bracket 62 which carries the roller 46 is pivotally supported upon a rod 68to which is connected a frame 69 that is pivoted at63. Therefore when the roller is raised clear ofv the mold, it may be swung outwardly clear of the mold. The bracket 62 carries guide rollers 72 that engage the rim 34a of the mold. The rollers 72 are yieldably held'in engagement with the mold by'means of a spring 73 whose one end is connected to an extension 74 of the frame 69 2), and whose other end is connected to a movable anchoring device T which is actuated by a handle 76, to release the tension of the spring; The rollers 72 being yieldably held in engagement with the wall of the mold insures that the roller 46 will be maintained .in properly spaced position with respect to the vertical wall of the mold, during rotation ofthemO-ld.

As...clay"ac'cumul ates" on. theahottmniiofthe" mold, the roller 46-.willgradually. IIIOVBiillP-s wardly, suchroller bearing ontheyclayfwith a pressure determinediby the weightaofithe counterpoise 65. V

As the'clay is forced toward thecenter of:

the mold 'it' is caught. beneath the rollersi47:

which are counterspoised to such lext'entzthati they will compact the clay into a solidnrass;

butnot with such' force that they'will sink very deeply into the clay. Owing tothefact;

that thei'shaft 49 which carries the bottom forming rollers47 is rotated in a direction opposite to the rotation of the mold table, the clay willbe forced somewhat toward the cen; t-er of the .mold instead. of toward the-side; walls thereof, the rollers 47 passing over the center of the mold, however,to produce a pot" bottom of uniform thickness.

lVhen the bottom ofthe pothasbeen com;-. pleted,'the rollers 47 are elevated abovethe upper edge of the mold and the slide'iblock 5064 which supports the shaft '49 and'the rollers is slid along the guide rails-17 and '18" to the positionshown in Fig. 2. A side-forms ing roller is then brought into position within the mold. Movement'fof: the roller from the position shown in Fig. 1 to a posi'-.. tion above the mold is'efl'ected by shiftingithe: slide block 82 along the rails 17 and 18.

Vhenthe side roller is in position above'th e' mold, it is lowered by means of a hand wheel 84 which opera-tesa pinion 85 that meshes with rack teeth 86 thatare formed on a sleeve 87 which carries the shaft 81.

When the roller 80 is properly positioned with respect to'the inner Vertical wall of'the' mold and the bottom wall-'thereof,:itrisro tated in the same-direction as'tlie' mold, by

means of helical gear'wheelsSS, one: of which is carried by the. shaft 81 and the other of which is slidably keyed to the shaft52.

Accurate positioning of the rollerSOwith respect to the mold wall in order to insure that the vertical wall of the pot will have with a hand wheel 92. The roller SO'need'nOt be counter-weighted since no vertical movement thereof is required during a rolling op.- er'ation and because it is vertically positioned by a stop collar .81 so its bottom endrests upon the bottom of a pot, and serves to main,- tain such bottom in a smooth condition. As more clay'is fed into the mold, it is caught by the roller 4.6 and then betweenthe roller 80 and the wall of the mold,and the sideofthe pot thus'built up: During the building up of the side wall of the pot, the rollerv 46' can be maintained in operation and suchroller will rise with the building up of such-side wall, asheretofore indicated, and-mayjbe counterpoised to a greater degree than in the forming of the pot bottom.

Wren the pot wall has been built to a sufiicient height, and after the consolidating roller 16 ceases to be employed, I may utilize an edge trimming and forming roller 93 which will bear against the upper edge of the pot to smooth the outer portion thereof and to cut off the clay at the desired height, this roller being idly rotatable upon a shaft 94:-

Referring now particularly to Figs. 7 and 8, I show a form of mold which may be employed, particularly when large pots are to be made. By this form of mold, the pots may be readily removed from the mold. The vertical walls of the mold are built in sections that are pivotally connected together as indicated at the points 95, 95a; and 95b, and are detachably connected at 96 so that when the connection 96 is broken, the mold walls may be swung apart' lVhen the mold sections are swung apart the mold bottom, by reason of the fact that it is carried on a truck 36, may be wheeled, together with. the block or pot contained thereon, out of the mold.

The mold is preferably defined by circles struck from points on the major and minor axes thereof, with the arcs of these circles respectively ending on the radial line drawn through the two centers of the respective arcs which forms the point of junction for the opening of the elliptical mold at 95. For example (Fig. 7), the lines a-a represent the radius of a major arc, and the lines bb the radius of a minor arc. In practice the mold would be made by turning on a boring mill the two large segments which would have the same radius, and in a separate operation the two small segments which are made to a common radius. This greatly facilitates and makes practical the machine method for producing these parts.

In Figs. 9 to 12, I show a means whereby tank blocks may be conveniently formed. in this arrangement, the rollers 47 may be mounted and driven as explained in connection with the discussion of Figs. 1 to 3, to build up a clay body within a mold 3 15. A conical consolidating roll similar to the roller 46 may also be employed in conjunction with the roller 47 and the block could be built up as described in connection with the apparatus of Figs. 1 and 3, but omitting the use of the sideforming roller 80 and employing the rollers 47 until the mold had been completely filled with clay.

The clay block thus formed will usually be of circular or curved contour, as such shapes are more readily made by the apparatus heretofore described. The clay body may be thereupon cut into blocks or bricks as shown in Fig. 12, by means of wires or other suitable cutting implements.

- Referring to Fig. 13, the modified pot forming apparatus consists of a rotatable T-head 100 having radially-extending arms 101 and 102, and is supported by a pedestal 103 which is secured to a base plate 104. Anti-friction bearings are provided between the T-head 100 and the pedestal 103 so that the head may be rotated freely when desired.

Extending vertically through the pedestal and head, is a drive shaft 104 which is suitably mounted in bearings and carries a bevel gear 105 at its upper end and a bevel gear 106 at its lower end. The gear 106 is driven by a bevel pinion 107 that is mounted on a shaft 108 and carries a gear 109 which may be driven from any suitable source of power (not shown). g

The arms 101 and 102 carry the bottomforming rolls and the side wall forming roll 110 and 111 respectively, the supporting and driving structure for these rolls being substantially similar to the structure shown in Fig. 1. The bottom-forming rolls 110 are carried by a vertical shaft 112 journaled in a slide block 113 which is slidably supported on the arm 101. The shaft 112 is driven by means of helical gears 11% by the horizontal shaft 115 which has clutch connection 116 through driving gears 117 with a drive shaft 118. The shaft118 carries a bevel gear 119 that meshes with the bevel gear 105.

The side wall-forming roll 111 is carried by a vertical shaft 120 that is journaled in a block 121 which is slidably supported on the arm 102. The roll 111 may be raised and lowered by means of a rack and pinion 122 operable by the hand wheel 123. The block 121 may be moved horizontally by means of the threaded rod 124 operable by chain-operated sprocket wheel 125. The everted lip 111 of the wall-forming roll 111 serves to smooth and finish off the upper edge of the pot and to cut away surplus material at such ed e.

The shaft 120 is driven by means of helical gear-S126 by the horizontal shaft 127 which has clutch connection 128 through gears 129 with the drive shaft 118.

The vertical shaft 10a carries a pinion 130 that meshes with a gear wheel 131 journaled in the pedestal 103, and drives a ring gear 132 on a mold table133 which is supported upon a platform 13%. The mold table 133 supports a mold 135 which may be of any desired form.

It will be apparent that either the bottomforming rolls or the side wall-forming roll may be readily moved into position above the mold by a rotative movement of the head 100. Further movement of the head may be prevented by suitably securing a bracket 136, carried at the outer end of each of the arms 101 and 102, to a standard 137 which is secured to the base 104, thereby holding the structure rigid during the molding operations.

A consolidating roll 138 may be employed if desired, and isshown as being'supported upon a bracket 139 WlllCll;lS mounted on :a vertical rod 140. The rod'is slidably supported upon an upright 14:1 and has connection With a. counter-weight 142. .As clay accumulates on the bottom-of the .mold, the roll 138 will gradually'move upwardly, the

roll bearingon the clay, With a pressure determined by the Weight of the counterpoise 142. Various modifications and alterations may be made in my machine without departing from the scope Qtthe appended claims.

I claim as my invention 1. Apparatus for shaping plastic material, comprising a mold, a bottom-forming roll having its axis horizontal, and mounted in imparting relative rotative movement to the mold and the roll about radially-ofiset axes in a plane parallel to the bottom of the mold, and means for causing the roll to bear upon the material in the mold with a predeter- -mined substantially constant force during contact of the rollwith the material.

3. Apparatus for shaping plastic material, comprising a mold, a bottom-forming roll mounted in position to operate upon material in the bottom of said mold, means for rotating'the mold, and means for bodily rotating the roll in a dlrection the reverse of the direction of rotation of the mold.

l. Apparatus forshaping plastic material, comprising a mold, a pa1r of rollers mounted on horizontal axes and in position to engage material in the bottom of the mold, means for rotating said rolls as a unit about a axis perpendicular to the first-named axes, but oli'set radially from the axis of the mold, and means for imparting relative movement to the mold and the said rolls, in a plane parallel to the bottom of the mold.

5. Apparatus for shaping plastic material comprising a mold, a pair of rollers mounted on horizontal axes and in position to engage material in the bottom of the mold, means for rotating said rolls as a unit about an axis perpendicular to the first-named axes, and means for imparting relative movement to the mold and the said rolls, in a plane parallel to the bottom of the mold, the vertical axis of rotation of the rolls being positioned to cause at least one of the rolls to periodically pass over the center of the mold.

6. Apparatus for shaping plastic material. comprising a rotatable mold. a materialshaping roller mounted in said mold for rotat-ion about an axis disposed in general par- -allelismto.therbottom of the mold, butextending-in a directiomtangentialto a circle :concentric With the axis ofthe-mold.

7 Apparatus for shaping: plastic-material, comprisinga rotatable mold, a :m-aterialshaping roller mounted in saidmoldfor :ro-

tation about an axis disposed in generalzparallelism :tothe. bottom of "the mold, butv extending in a direction'tangential to acircle concentric with the. axisof the mold, one end of the roller axis being disposed forwardly of theother.endthereoflin relation to the direction of rotation of the mold.

8. Apparatus for shaping plastic material comprising: a mold, means forcompressing -ma.ter1al;.aga1nst the sldes of'themold, and

a lip-forming roll positioned to engage the upper .edge; of the. material shaped in :the

,mold, to define the upper edge of the .articl formed Within the mold.

9. Apparatus for shaping plastic material comprising a mold,abeam disposed above the jmold, a plurality of clay Working devices sup- :ported by said beam,.and. means permitting movement of saiddevices horizontallygalong :the beam and vertically with respect'thereto for movement thereof into and outof operative positionwithin the mold.

10. Apparatus for. shaping plastic material comprising a mold, abeam disposed abovethe mold,-a; plurality of clay-working devices supported by-said beam, and means. permitting movement of :said-clay-Working devices in vertical and horizontal directions into and outof operative positionswithin the mold.

11. Apparatus for shapingplastic material comprising a:mold,- a material shaping roller mounted in said mold iforirotation, about an axisdisposed in. a directiongenerally radial tothe mold but tangential to a circle concentric With the axis of the mold, and-means :tor constant-1y maintaining. the said tangential relation duringa rolling. operation.

12. Apparatus for-shaping plastic material comprising a'mold, a material-shaping roller mounted in-said mold forrotation about an axis disposed in a direction generally'radial to the mold but tangential to a circle concentrio With the axis of the mold, andmeans for maintaining a definite angularity of the roller axis and the position'of the'roller With'respect .to-the adjacent portion of a mold wall during a rolling operation.

' 13. Apparatus for-shapingplastic material comprising a'mold of non-circular form, a clay Working device positioned within the mold, means forrotating the mold, a rimon the mold, a guiding member connected to the said device and engaging said rim, and means forv holding the mold rim and the guiding ,mencilberin engagement during rotation of the .mol

14. Apparatus for-shaping. plastic matedisposed exteriorlv .of the .mold and adapted to engage the upper edge of a body of plastic it in contact with said guiding device, and

means for shaping material within the mold.

16. Apparatus for shaping plastic material comprising a mold, means for supporting said mold for free movement in a horizontal direction, a guiding device for engaging a side portion of the mold, means for rotating said mold upon said support, means operating upon the support for maintaining the mold in contact with said guiding device, and means for simultaneously shaping material within the mold.

17. Apparatus for shaping plastic material, comprising a mold, a material shaping roller of general conical form, positioned to operate upon clay on the bottom of the mold, the enlarged end of said roller being more remote from the center of the mold than the smaller end thereof and being provided with a circumferential groove.

18. Apparatus for shaping plastic material comprising a mold, a bottom-forming roll mounted in position to operate upon material in the bottom of said mold, means for rotating the mold, and means for bodily rotating the roll in a direction the reverse of the direction of rotation of the mold, the roll being given a plurality of revolutions during one revolution of the mold.

19. Apparatus for shaping plastic material, comprising a mold, a mold base, a mold table, means for shaping material within the mold, a truck for supporting the mold base,

a ring gear on the mold table, a driving pinion meshing with said gear, and means yieldably urging the truck and the mold table toward said pinion for maintaining the pinion and gear in driving engagement.

20. Apparatus for shaping plastic material comprising a mold, a mold base, a mold table,

means for shaping material within the mold,

a truck for supporting the mold base, a noncircular ring gear on the mold table, a driving pinion meshing with said gear, and means yieldably urging the truck and the mold table toward said pinion for maintaining the pinion and gear in driving engagement.

21. Apparatus for shaping plastic material comprising a mold, a mold base, a mold table, means for shaping material within the mold, a movable support for the mold base,

a ring gear on the mold table, a driving pinion meshing with said gear, and means yieldably urging the support and the mold table toward said pinion, for maintaining the pinion and gear in driving engagement.

22. Apparatus for shaping plastic material comprising a mold base, a clay working device for shaping material within the mold, a truck device rigidly secured to the mold base, a rotatable mold supporting table, means for removably securing said truck in position on the table, and means for supporting said mold table in position beneath said clay-working device.

rial, comprising a mold having pivotally connected vertical wall sections and a removable bottom wall, a clay-Working device for shaping material within the mold, a rotatable mold table having a recess, said vertical walls ofclay-working device for shaping material;

within the mold, a rotatable mold table having a recess for receiving said truck, said vertical walls being secured to the said table in position to hold the bottom wall against removal when the side wall is closed, and

means for imparting relative rotative movement to the said clay-working device and the mold.

25. Apparatus for forming clay pots and the like, comprising a rotatable table, a mold it;

having vertically divided side walls and supported by said table, a. base encloseable within said side walls, and a supporting member for said base movable into position upon said table where the said base can be engaged by the said walls.

In testimony whereof I, the said FRANK W. PRESTON have hereunto set my hand.

FRANK vV. PRESTON.

23. Apparatus for shaping plastic mate 

